This WordPress.com site is the bee's knees

Main menu

Monthly Archives: March 2015

Post navigation

Becoming flatfooted can be a real health issue for people. The advice from healthcare experts is to pay attention to foot pain, and when it happens, to seek help right away. In the last 20 years, adult-acquired flatfoot has become a more commonly recognized health issue. The cause is a dysfunction of the ankle tendon that attaches to the bones on the inside of your foot. The function of this posterior tibial tendon (PTT) is to maintain the foot arch and provide strength during push-off when you walk. When the PTT is not functioning correctly, you tend to lose your arch, or become more flatfooted. This problem occurs about three times more often in women than in men, especially after the age of 40. Initially, PTT dysfunction is associated with pain on the inside of the ankle, swelling and sometimes a limp. If left unchecked, the arch appears to collapse and the pain on the inside of the ankle worsens. Eventually, if left unchecked, patients will begin to feel pain on the outside of the ankle, too.

Causes

The cause of posterior tibial tendon insufficiency is not completely understood. The condition commonly does not start from one acute trauma but is a process of gradual degeneration of the soft tissues supporting the medial (inner) side of the foot. It is most often associated with a foot that started out somewhat flat or pronated (rolled inward). This type of foot places more stress on the medial soft tissue structures, which include the posterior tibial tendon and ligaments on the inner side of the foot. Children nearly fully grown can end up with flat feet, the majority of which are no problem. However, if the deformity is severe enough it can cause significant functional limitations at that age and later on if soft tissue failure occurs. Also, young adults with normally aligned feet can acutely injure their posterior tibial tendon from a trauma and not develop deformity. The degenerative condition in patients beyond their twenties is different from the acute injuries in young patients or adolescent deformities, where progression of deformity is likely to occur.

Symptoms

The symptoms of PTTD may include pain, swelling, a flattening of the arch, and inward rolling of the ankle. As the condition progresses, the symptoms will change. For example, later, as the arch begins to flatten, there may still be pain on the inside of the foot and ankle. But at this point, the foot and toes begin to turn outward and the ankle rolls inward. As PTTD becomes more advanced, the arch flattens even more and the pain often shifts to the outside of the foot, below the ankle. The tendon has deteriorated considerably and arthritis often develops in the foot. In more severe cases, arthritis may also develop in the ankle. Symptoms, which may occur in some persons with flexible flatfoot, include. Pain in the heel, arch, ankle, or along the outside of the foot. ?Turned-in? ankle. Pain associated with a shin splint. General weakness / fatigue in the foot or leg.

Diagnosis

Observation by a skilled foot clinician and a hands-on evaluation of the foot and ankle is the most accurate diagnostic technique. Your Dallas foot doctor may have you do a walking examination (the most reliable way to check for the deformity). During walking, the affected foot appears more pronated and deformed. Your podiatrist may do muscle testing to look for strength deficiencies. During a single foot raise test, the foot doctor will ask you to rise up on the tip of your toes while keeping your unaffected foot off the ground. If your posterior tendon has been attenuated or ruptured, you will be unable to lift your heel off the floor. In less severe cases, it is possible to rise onto your toes, but your heel will not invert normally. X-rays are not always helpful as a diagnostic tool for Adult Flatfoot because both feet will generally demonstrate a deformity. MRI (magnetic resonance imaging) may show tendon injury and inflammation, but can?t always be relied on for a complete diagnosis. In most cases, a MRI is not necessary to diagnose a posterior tibial tendon injury. An ultrasound may also be used to confirm the deformity, but is usually not required for an initial diagnosis.

Non surgical Treatment

Footwear has an important role, and patients should be encouraged to wear flat lace-up shoes, or even lace-up boots, which accommodate orthoses. Stage I patients may be able to manage with an off the shelf orthosis (such as an Orthaheel or Formthotics). They can try a laced canvas ankle brace before moving to a casted orthosis. The various casted, semirigid orthoses support the medial longitudinal arch of the foot and either hold the heel in a neutral alignment (stage I) or correct the outward bent heel to a neutral alignment (stage II). This approach is meant to serve several functions: to alleviate stress on the tibialis posterior; to make gait more efficient by holding the hindfoot fixed; and thirdly, to prevent progression of deformity. Devices available to do this are the orthosis of the University of California Biomechanics Laboratory, an ankle foot orthosis, or a removable boot. When this approach has been used, two thirds of patients have good to excellent results.

Surgical Treatment

In cases where cast immobilization, orthoses and shoe therapy have failed, surgery is the next alternative. The goal of surgery and non-surgical treatment is to eliminate pain, stop progression of the deformity and improve mobility of the patient. Opinions vary as to the best surgical treatment for adult acquired flatfoot. Procedures commonly used to correct the condition include tendon debridement, tendon transfers, osteotomies (cutting and repositioning of bone) and joint fusions. (See surgical correction of adult acquired flatfoot). Patients with adult acquired flatfoot are advised to discuss thoroughly the benefits vs. risks of all surgical options. Most procedures have long-term recovery mandating that the correct procedure be utilized to give the best long-term benefit. Most flatfoot surgical procedures require six to twelve weeks of cast immobilization. Joint fusion procedures require eight weeks of non-weightbearing on the operated foot – meaning you will be on crutches for two months. The bottom line is, Make sure all of your non-surgical options have been covered before considering surgery. Your primary goals with any treatment are to eliminate pain and improve mobility. In many cases, with the properly designed foot orthosis or ankle brace, these goals can be achieved without surgical intervention.

The heel is the first bone to contact the ground when walking and takes the full force of impact and the resulting shock of bearing weight during motion. The primary symptom is pain in the heel area that varies in severity and location. The pain is commonly intense when getting out of bed or a chair. The pain often lessens when walking. The most common cause of Heel Pain is plantar fasciitis. Plantar fasciitis is a stretching of the plantar fascia, a ligament that runs from the ball of foot through the arch and is attached to the heel. It is that attachment which becomes aggravated and typically causes pain after being on your feet for lengths of time. Abnormal motion of the foot (pronation) is one cause of plantar fasciitis. Heel spurs, which are abnormal bone growths coming off the heel, can also cause heel pain. Other causes include repetitive stress or shock to the heel, standing for prolonged periods or osteoarthritis. To prevent heel pain, always wear properly fitting shoes, place insoles or inserts in your shoes to help control abnormal foot motion, maintain a healthy weight, exercise and do foot stretches as they have been shown to decrease the incidence of heel pain.

Causes

Some of the many causes of heel pain can include abnormal walking style (gait), such as rolling the feet inwards. Obesity. Ill-fitting shoes. Standing, running or jumping on hard surfaces. Injury to the heel, such as stress fractures. Bursitis (inflammation of a bursa, bursae are small sacs that contain fluid to lubricate moving parts, such as joints and muscles). Neuroma (nerve enlargement). Certain disorders, including diabetes and arthritis.

Symptoms

Symptoms may also include swelling that is quite tender to the touch. Standing, walking and constrictive shoe wear typically aggravate symptoms. Many patients with this problem are middle-aged and may be slightly overweight. Another group of patients who suffer from this condition are young, active runners.

Diagnosis

Your doctor will listen to your complaints about your heel and examine you to see what is causing the pain, and whether anything else has started it off. If the cause of your pain seems obvious, your doctor may be happy to start treatment straight away. However, some tests may be helpful in ruling out other problems. Blood tests may be done for arthritis. An Xray will show any arthritis in the ankle or subtalar joint, as well as any fracture or cyst in the calcaneum. (It will also show a spur if you have one, but as we know this is not the cause of the pain.) Occasionally a scan may be used to help spot arthritis or a stress fracture.

Non Surgical Treatment

Treatments to add to your stretching program include wearing good-quality shoes, icing the painful area, and massaging the arch. Do not walk barefoot; walk in shoes with good heel and arch supports such as high-quality walking or running shoes. Keep a pair of shoes next to your bed so you can put them on before taking your first step. Your doctor may recommend that you wear an additional arch support or a heel cup in the shoes. Icing your foot can help relieve pain. Rub a frozen bottle of water or an ice cup over the tender areas for five minutes two times each day. Massage your foot by rolling a tennis, golf ball, or baseball along your sole and heel. This friction massage can help break up adhesions and stretch the plantar fascia. Do this for five minutes two times each day. If you are a runner or just started a walking or running program, evaluate your training for errors such as warming up improperly, increasing mileage too quickly, running hills excessively, running on surfaces that are too hard, or wearing broken down shoes. Adjusting your training program can help relieve your pain. While recovering from heel pain, walk or jog in a pool or crosstrain by biking and swimming. These activities maintain your cardiovascular fitness without stressing your heel cord or plantar fascia. Heel pain takes time to go away. Be patient and remember that no treatment is a substitute for STRETCHING!

Surgical Treatment

Only a relatively few cases of heel pain require surgery. If required, surgery is usually for the removal of a spur, but also may involve release of the plantar fascia, removal of a bursa, or a removal of a neuroma or other soft-tissue growth.

Prevention

You can try to avoid the things that cause heel pain to start avoid becoming overweight, where your job allows, minimise the shock to your feet from constant pounding on hard surfaces, reduce the shocks on your heel by choosing footwear with some padding or shock-absorbing material in the heel, if you have high-arched feet or flat feet a moulded insole in your shoe may reduce the stresses on your feet, if you have an injury to your ankle or foot, make sure you exercise afterwards to get back as much movement as possible to reduce the stresses on your foot and your heel in particular, If you start to get heel pain, doing the above things may enable the natural healing process to get underway and the pain to improve.

Your Achilles tendon is located at the back of your foot, just above your heel. It connects your heel to the two muscles of your calf and helps your foot push forward every time you take a step. If the tendon becomes swollen or irritated due to overuse, it can lead to the painful condition called Achilles tendonitis. If Achilles tendonitis goes untreated, it can become a chronic (ongoing) condition that makes just walking around almost impossible. Achilles tendonitis is a very common running injury. But it can also affect basketball players, dancers, or people who put a lot of repeated stress on their feet. It can be very painful.

Causes

Some of the causes of Achilles tendonitis / tendinosis include. Overuse injury – this occurs when the Achilles tendon is stressed until it develops small tears. Runners seem to be the most susceptible. People who play sports that involve jumping, such as basketball, are also at increased risk. Arthritis – Achilles tendonitis can be a part of generalised inflammatory arthritis, such as ankylosing spondylitis or psoriatic arthritis. In these conditions both tendons can be affected. Foot problems – some people with over pronated feet (Flat Feet) or feet that turn inward while walking are prone to Achilles tendonitis. The flattened arch pulls on calf muscles and keeps the Achilles tendon under tight strain. This constant mechanical stress on the heel and tendon can cause inflammation, pain and swelling of the tendon. Being overweight can make the problem worse. Footwear – wearing shoes with minimal support while walking or running can increase the risk, as can wearing high heels. Overweight and obesity – being overweight places more strain on many parts of the body, including the Achilles tendon.

Symptoms

Signs and symptoms of Achilles Tendinitis generally include pain and stiffness along your achilles tendon, especially in the morning. Pain in the back of your heel that gets worse with activity. Severe pain the day after exercising. Swelling that gets worse with activity. If you feel a pop in the back of your heel or bottom of you calf, you may have ruptured or torn you achilles tendon.

Diagnosis

If you think you have Achilles tendinitis, make an appointment to see your doctor. The doctor will ask you questions about your recent activity and look for signs. The foot not flexing when the calf muscle is pressed ( if Achilles ruptures or tears in half). Swelling on the back of the foot. Pain in the back of the foot. Limited range of motion in ankle. An X-ray or MRI scan can check for tendinitis.

Nonsurgical Treatment

The latest studies on Achilles tendonitis recommend a treatment plan that incorporates the following three components. Treatment of the inflammation. Strengthening of the muscles that make up the Achilles tendon using eccentric exercise. These are a very specific type of exercise that has been shown in multiple studies to be a critical component of recovering from Achilles tendonitis. Biomechanical control (the use of orthotics and proper shoes). Shockwave therapy.

Surgical Treatment

Around 1 in 4 people who have persisting pain due to Achilles tendinopathy has surgery to treat the condition. Most people have a good result from surgery and their pain is relieved. Surgery involves either of the following, removing nodules or adhesions (parts of the fibres of the tendon that have stuck together) that have developed within the damaged tendon. Making a lengthways cut in the tendon to help to stimulate and encourage tendon healing. Complications from surgery are not common but, if they do occur, can include problems with wound healing.

Prevention

Regardless of whether the Achilles injury is insertional or non-insertional, a great method for lessening stress on the Achilles tendon is flexor digitorum longus exercises. This muscle, which originates along the back of the leg and attaches to the tips of the toes, lies deep to the Achilles. It works synergistically with the soleus muscle to decelerate the forward motion of the leg before the heel leaves the ground during propulsion. This significantly lessens strain on the Achilles tendon as it decelerates elongation of the tendon. Many foot surgeons are aware of the connection between flexor digitorum longus and the Achilles tendon-surgical lengthening of the Achilles (which is done to treat certain congenital problems) almost always results in developing hammer toes as flexor digitorum longus attempts to do the job of the recently lengthened tendon. Finally, avoid having cortisone injected into either the bursa or tendon-doing so weakens the tendon as it shifts production of collagen from type one to type three. In a recent study published in the Journal of Bone Joint Surgery(9), cortisone was shown to lower the stress necessary to rupture the Achilles tendon, and was particularly dangerous when done on both sides, as it produced a systemic effect that further weakened the tendon.